Исследование пространственных "обходных" перелетов на орбиту искусственного спутника Луны при старте с космодромов, находящихся на территории России

Исследование пространственных «обходных» перелетов на орбиту…

Инженерный журнал: наука и инновации

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2016 17

A study of three-dimensional "detour" transfers

into artificial lunar satellite orbit following launches

from space centers located in Russia

Bauman Moscow State Technical University, Moscow, 105055, Russia

The article presents the results of studies on low-energy “detour” transfer trajectories to

an artificial lunar satellite orbit in the Earth-Moon-Sun system for spacecraft launched

from a Russian space canter. In this type of trajectories, the spacecraft (SC) first flies

beyond the Moon’s orbit, out of the Earth’s sphere of influence. Its trajectory parameters

are altered by the Sun’s gravitational perturbations, which enables lunar gravitational

capture of the SC to take place, reducing the delta-V budget of the mission. The SC veloc-

ity is required to be low enough when approaching the Moon’s sphere of influence, which

limits incoming trajectory inclination with respect to the Moon’s geocentric orbit plane.

Therefore, supplementary studies of “detour” trajectories for launches from Russian

space centres are necessary. Calculations conducted in this research confirm the possi-

bility of lunar gravitational capture for SC launched from Russian space centers onto a

“detour” trajectory. In some of the trajectories considered, a gravity assist maneuver

with the Moon is used to increase SC energy and change its orbit inclination.

Keywords:

low-energy detour trajectories, lunar gravitational capture, gravity assist

maneuver.

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Bychkov A.D.

(b. 1990) graduated from Bauman Moscow State Technical University in

2013. Рost-graduate student of the Department of Dynamics and Flight Control of Rock-

ets and Spacecraft, engineer of S.P. Korolev Rocket and Space Corporation “Energia”.

Author of 2 scientific papers and 7 conference papers in the field of simulation of ballis-

tics and dynamics of space vehicles, and design of space tugs and transformable orbital

station modules. e-mail:

abychkov@ro.ru